3 Objectives Physiology of basal ganglia and regulatory mechanismsAt the end of this lectutre the student should be able to:-1-appreciate different nuclei of basal ganglia2-know different neurotransmitters that have a role in basal ganglia functions3-know Basal Ganglia connections & their functions4-appreciate general functions of basal ganglia5-diagnose basal ganglia disorders

5 The basal ganglia (or basal nuclei) are a group of nuclei of varied origin.They are situated at the base of the forebrain and are strongly connected with the cerebral cortex, thalamus and other brain areas.The basal gangli functions:voluntary motor control, procedural learning relating to routine behaviors or "habits" , eye movements, and cognitive, emotional functions.

6 Experimental studies show that the basal ganglia exert an inhibitory influence on a number of motor systems, and that a release of this inhibition permits a motor system to become activeThe "behavior switching" that takes place within the basal ganglia is influenced by signals from many parts of the brain, including the prefrontal cortex, which plays a key role in executive functions

7 Objectives Physiology of basal ganglia and regulatory mechanismsAt the end of this lectutre the student should be able to:-1-appreciate different nuclei of basal ganglia2-know different neurotransmitters that have a role in basal ganglia functions3-know Basal Ganglia connections & their functions4-appreciate general functions of basal ganglia5-diagnose basal ganglia disorders

8 the four principle nuclei of the basal ganglia are the:striatumglobus pallidussubstantia Nigra- pars compacta,reticulatasubthalamic nucleus

9 The striatum the striatum consists of three subdivisions, the:caudate nucleusputamenventral striatum (which includes the nucleus accumbens)a major collection of fibers, called the internal capsule, separates the caudate nucleus and putamen

10 subthalamic nucleusThe subthalamic nucleus is a diencephalic gray matter portion of the basal ganglia, and the only portion of the ganglia that actually produces an "excitatory," glutamate neurotransmitter.The role of the subthalamic nucleus (STN) is to stimulate the SNr-GPi complex and it is part of the "indirect pathway".

11 substantia nigraa mesencephalic gray matter portion of the basal ganglia that is divided into SNr (reticulata) and SNc (compacta).SNr often works in unison with GPi, and the SNr-GPi complex inhibits the thalamus.Substantia nigra pars compacta (SNc) however, produces the neurotransmitter dopamine, which is very significant in maintaining balance in the striatal pathway.

12 Globus palldusThe pallidum receives its most important input from the striatum (either directly or indirectly), and sends inhibitory output to a number of motor-related areas, including the part of the thalamus that projects to the motor-related areas of the cortex

13 Globus palldusThe external segment, or GPe, receives input mainly from the striatum, and projects to the subthalamic nucleus. The internal segment, or GPi, receives signals from the striatum via two pathways, called "direct" and "indirect". Pallidal neurons operate using a "disinhibition" principle.neurons fire at steady high rates in the absence of input, and signals from the striatum cause them to "pause". Because pallidal neurons themselves have inhibitory effects on their targets, the net effect of striatal input to the pallidum is a reduction of the tonic inhibition exerted by pallidal cells on their targets

14 substantia nigraOne part of substantia nigra, the reticulata (SNr), functions similarly to the pallidum, and another part (compacta or SNc) provides the source of the neurotransmitter dopamine's input to the striatum.The subthalamic nucleus (STN) receives input mainly from the striatum and cortex, and projects to a portion of the pallidum (interna portion or GPi). Each of these areas has a complex internal anatomical and neurochemical organization

15 Is via the thalamus to the cerebral cortexMAIN INPUT TO THE BASAL GANGLIAThe comes from the cerebral cortex (motor area) and projects to the NEOSTRIATUM (a term for the caudate nucleus and putamen)THE MAIN OUTPUTIs via the thalamus to the cerebral cortex(motor area)

16 NeurotransmittersIn most regions of the brain, the predominant classes of neurons use glutamate as neurotransmitter and have excitatory effects on their targets.majority of BG neurons use GABA as neurotransmitter and have inhibitory effects on their targets.The inputs from the cortex and thalamus to the striatum and STN are glutamatergic,but the outputs from the striatum, pallidum, and substantia nigra pars reticulata all use GABA.Thus, following the initial excitation of the striatum, the internal dynamics of the basal ganglia are dominated by inhibition and disinhibition.Other neurotransmitters have important modulatory effects. The most intensively studied is dopamine, which is used by the projection from the substantia nigra pars compacta to the striatum, and also in the analogous projection from the ventral tegmental area to the nucleus accumbens.Acetylcholine also plays an important role, being used both by several external inputs to the striatum, and by a group of striatal interneurons.striatum has one of the highest acetylcholine concentrations of any brain structure

17 Circuit connectionsIn order to understand the complex circuitry of the basal ganglia, one has to first understand the important participants in this circuit.Parts of the basal ganglia are in direct communication with the thalamus and the cortex.The cortex, thalamus, and the basal ganglia are, therefore, the three main participants in the circuit created by the basal ganglia.

18 These cortical neurons release the neurotransmitter glutamate, which is excitatory in nature. Once excited by glutamate, the cells in the striatum project in two different directions giving rise to two major pathways: The "direct" and the "indirect" pathways:

20 direct pathwaycortical cells project excitatory inputs to the striatum, which in turn projects inhibitory neurons onto the cells of the SNr-GPi complex.The SNr-GPi complex projects directly onto the thalamus through the inhibitory pathway.This results in a net reduction of inhibition of the thalamus via the striatum.The thalamus projects excitatory glutamatergic neurons to the cortex itself.The direct pathway, therefore, results in the excitation of the motor cortex by the thalamus. Once stimulated, the cortex projects its own excitatory outputs to the brain stem and ultimately muscle fibers via the lateral corticospinal tract.

21 indirect pathway Striatum stimulated by the cortex,striatum project inhibitory axons onto the cells of the globus pallidus externa (GPe), which tonically inhibits the subthalamic nucleus (STN).This results in the net reduction of inhibition of the STN. The STN, in turn, projects excitatory inputs to the SNr-GPi complex (which inhibits the thalamus).The end-result is decreased stimulation of the motor cortex by the thalamus and reduced muscle activity.

23 The antagonistic functions of the direct and indirect pathways are modulated by the substantia nigra pars compacta (SNc), which produces dopamine.Special D1-receptors in basal ganglia are excited by dopamine, favoring the direct pathway.D2-receptors in the basal ganglia are inhibited in presence of dopamine and favor the indirect pathway.Through these mechanisms the body is able to maintain balance between excitation and inhibition of motion. Lack of balance in this delicate system leads to pathologies such as Parkinson's disease.

24 Eye movementEye movement is influenced by an extensive network of brain regions that converge on a midbrain area called the superior colliculus (SC).eye movements begin with activation in the caudate nucleus, which inhibits the SNr via the direct GABAergic projections, which in turn disinhibits the SC

30 caudate has direct conection to the cortex from thalamus.Caudate circuit is excitatory, has instinctive function which works without thinking and need quick response.eg. response after seeing a lion

31 Neurotransmitters of basal gangliaDopamine pathway: from substantia nigra to caudate nucleus and putamen.Gama amino butyric acid pathway from caudate nucleus and putamen to globus pallidus and substantia nigra.Acetylcholine pathway from cortex to the caudate nucleus to putamen.Glutamate that provide the excitatory signals that balance out the large no. of the inhibitory signals transmitted specially by the dopamin, GABA & serotonin inhibitory transmitters.

48 Summary of functions and disfunctionof basal gangliaIt play important motor function in starting and stopping motor functions and inhibiting unwanted movement.It changes the timing and scales the intensity of movements.Putamen circuit is inhibitory. Executes skilled motor activities for example cutting paper with a scissor, hammering on nail, shooting a basket ball & like throwing a base ball.Putamen circuit has indirect connection to cortex via thalamus.while caudate has direct conection to the cortex from thalamus.

49 Cont…Caudate circuit is excitatory, has instinctive function which works without thinking and need quick response. eg. response after seeing a lion.[Note: effects of basal ganglia on motor activity are generally inhibitory.]Lesions of the basal ganglia produce effects on contra lateral side of the bodyDamage to basal ganglia does not cause paralysis. However it results in abnormal movements

50 Movement Disorder Features LesionChoreaMultiole quick, random movements, usually most prominent in the appendicular musclesAtrophy of the striatum. Huntington ChoreaAthetosisSlow writhing movements,which are usually more severe in the appendicular musclesDiffuse hypermyelination of corpus striatum and thalamusHemiballismusWild flinging movements of half of the bodyHemorrhagic destruction of contralateral subthalamic n. Hypertensive patientsParkinsonismPill rolling tremor of the fingers at rest, lead pipe rigidity and akinesiaDegenration of Substantia Nigra